Gene Details:
- Gene ID: MDP0000277235
- Gene Symbol: MdSUT2 MdSUT2.2
- Gene Name: sucrose transporter protein 2
- Genome: Golden ASM211411v1
- Species: Malus domestica
Functional Descriptions:
- MdSUT2 and MdAREB2 were isolated and genetically transformed into apple (Malus domestica) to investigate their roles in ABA-induced sugar accumulation.
- Both MdAREB2 and MdSUT2 transgenic plants produced more soluble sugars than controls.
- MdSUT2 gene confers enhanced stress tolerance, early flowering time, and increased plant size in transgenic Arabidopsis.
- An apple sucrose transporter MdSUT2.2 is a phosphorylation target for protein kinase MdCIPK22 in response to drought.
- It was found that MdCIPK22 overexpression promoted sugar accumulation and improved drought tolerance in an MdSUT2.2-dependent manner in transgenic apple plants.
Function-related keywords:
- stress , tolerance , aba , stress-tolerance , sugar , flowering-time , flowering
Literature:
- Transcription Factor AREB2 Is Involved in Soluble Sugar Accumulation by Activating Sugar Transporter and Amylase Genes. DOI: 10.1104/pp.17.00502 ; PMID: 28600345
- An apple sucrose transporter MdSUT2.2 is a phosphorylation target for protein kinase MdCIPK22 in response to drought. DOI: 10.1111/pbi.13003 ; PMID: 30133123
Related News:
Gene Resources:
Sequences:
cDNA Sequence
CDS Sequence
- >MDP0000277235
ATGGCGGGGAGGACGGACTCGGAGTCCATCCGGGTGCCGTACAGGAACCTGAGGAGGGATGCGGAAGTGGAAATGATGGTGACGGACGAGCCTCATCATCGTATCGACCTCAATTCGCCTACGTYTTCCTCCCCTAGGGTTCCAAATGGGAGCGGCGGCGGCCTCTCGCCGCCGGGACAGCCCGGACACAAACACCATACTCTTTTGACGCTCATTCTCAGCTGCACGGTCGCCGCCGGTGTGCAGTTCGGTTGGGCGTTGCAGCTTTCGCTTTTAACTCCTTATATACAGACTCTCGGAATAGGGCATGCCTTTTCTTCATTTATTTGGCTTTGTGGCCCTATTACAGGCCTTGTGGTTCAACCTTGTGTTGGTATTTGGAGTGACAAATGCTCTTTAAAATTGGGAAGAAGACGCCCCTTCATTCTTGCAGGATCTCTCATGATTTCTGTTTCCGTGGTGTTAATCGGGTTTTCTGCAGACGTTGGATACTTATTAGGAGATACAAAGGAGCATTGCAGCACATTCAAAGGTACCCGGACAAGGGCAGCCTTTGTCTTTATTATTGGATTTTGGTTGCTGGATCTTGCCAACAATACAGTGCAGGGACCAGCTCGTGCTCTTCTGGCTGATCTAGCAGGCCCCGAGCAACGTAATACTGCAAATGCYGTGTTTTGCTCATGGATGGCCGTTGGTAACATACTAGGATTTTCTGCTGGTGCAAGTGGAAATTGGCACAGATGGTTTCCTTTCCTTTTGAGTAGAGCTTGCTGTGAAGCCTGTGGAAATCTTAAAGCAGCATTTCTTATTGCGGTGATCTTTCTCACTTTGTGTACACTGGTTACAATGTATTTTGCTGAGGAGGTTCCGCTCACTGCGTATCAGCCGAACCCTTTATCAGATTCTGCTCCTTTATTGGATGATCCCCAACAACATGGTCTTGAGCTTTCTAAGTTGAAGCGTGATAAGCAAGTTATTGATAATGCAAATGGAAGCAGAACTGACTATGAAAGGGATATAAATCTGAAGGAGGCCATCTCAAAAGTTGAGGAAGATAAGAATGGTGGTTTTAATGACGGACCTGGAGCAGTGTTAGTCAATCTGTTGACCAGTTTAAGGCATTTACCACCAGCAATGCATTCAGTGCTAATTGTTATGGCTCTTACATGGTTATCCTGGTTTCCATTCTTTCTTTTTGATACGGATTGGATGGGTAGGGAAGTATATCATGGGGATCCGAAAGGGAACTCGGCCAAAGTACAAGCTTATGATCAGGGTGTCAGAGAAGGTGCATTCGGTTTATTATTGAATTCAGTTGTTCTTGGCATCAGTTCTTTCCTAATTGAGCCAATGTGCCAGCGGATGGGTGCAAGACTAGTGTGGGCAATGAGCAATTTTATTGTGTTTGCCTGCATGGCAGGCACCGCTATCATAAGTTTAATATCTGTTACAGAGTATTCTAAAGGGATTGAACATGTAATTGGGGGGAATGAAAATATCAGGATTGCTTCCCTGATTGTTTTTGCTCTTCTTGGCTTCCCACTTGCTATTACCTACAGTGTTCCCTTTTCCGTTACAGCAGAGTTGACTGCCGACGCAGGTGGTGGCCAAGGACTGGCTATCGGAGTTTTGAATCTTGCAATTGTTATTCCACAGTTTGGTTGTGCTGATTTCATGCTTCTTGTTAAATTGCGCARATGA
Protein Sequence
- >MDP0000277235
MAGRTDSESIRVPYRNLRRDAEVEMMVTDEPHHRIDLNSPTXSSPRVPNGSGGGLSPPGQPGHKHHTLLTLILSCTVAAGVQFGWALQLSLLTPYIQTLGIGHAFSSFIWLCGPITGLVVQPCVGIWSDKCSLKLGRRRPFILAGSLMISVSVVLIGFSADVGYLLGDTKEHCSTFKGTRTRAAFVFIIGFWLLDLANNTVQGPARALLADLAGPEQRNTANAVFCSWMAVGNILGFSAGASGNWHRWFPFLLSRACCEACGNLKAAFLIAVIFLTLCTLVTMYFAEEVPLTAYQPNPLSDSAPLLDDPQQHGLELSKLKRDKQVIDNANGSRTDYERDINLKEAISKVEEDKNGGFNDGPGAVLVNLLTSLRHLPPAMHSVLIVMALTWLSWFPFFLFDTDWMGREVYHGDPKGNSAKVQAYDQGVREGAFGLLLNSVVLGISSFLIEPMCQRMGARLVWAMSNFIVFACMAGTAIISLISVTEYSKGIEHVIGGNENIRIASLIVFALLGFPLAITYSVPFSVTAELTADAGGGQGLAIGVLNLAIVIPQFGCADFMLLVKLRX